Valve-operation system



May .7, 1.929- H. L. sTEPHl-:NsoN' 1,711,660

VALVE OPERATION SYSTEM Filed April 5o, 1927 :s sheets-sheet 1A l/ Z FJ. A Il A y I /4/ y Z y' /5 l QM Z Y s@ 93| *if r I fik J/f 7 i 5 /5 /5 :f Z0

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May 7, 1929 H. L. sTEPHENsoN 1,711,660

VALVE OPERATI ON SYSTEM Filed April 50, 1927 3 Sheets-Sheet -2 46 5 Z y fg@ ff. 591i 7 fh/mm@ H. L. sTr-:PHENsoN VALVE OPERATION SYSTEM Filed April so, 1927 Z@ iff. f2.

3 sheetsf-Sht 3 imnfva llunr 1/ /f u /f Patented May 7, 1929..y

HENRY L. STEPHENSON, F BFFALO, NEW YORK.

VALVE-OPERATION SYSTEM.

Appncation flied April ao, 1.927. serial No. 187,816'.

This invention relates to valves and systems tor operating the same between open and closed positions. More particularly it relates to an electrical system for operating a valve, such as a gas valve, between open and closed positions, which systems are particularly useful in connectionwith domestic water i supply heating devices in homes. Such an electrical operation of valves permits control of water heating burners, for example; from different parts or rooms of a house, and thus renders unnecessary any trips by a person to the basement of a house to light or extinguish the water lheating burner. f

An object ofthis invention is to provide an improved and simplified operating system for valves by which dependable and certain operation vof a valve from remote points may be obtained.

A further object of the invention is to pro-l vide an improved electric operatingsystem for valves with which the operating force required will be Va minimum at the start of each operation; with which the valve will be yieldingly biased into both openand closed positions,-and which willbe dependable inv operation and relatively simple, durable and inexpensive in construction. v

VA. further object .of the invention is to generally improve and simplifyv the operating mechanism of a valve oi" this type, to the end that a more satisfactory and dependable valve operation may be obtained. l Various other objects and advantages will be apparent from thev following description of an embodiment ofthe invention, and the novel features will be particularly pointed ont hereinafterin connection with the appended claims.

l'n the accompanying drawing :e Fig. l is a side elevation of a vgas valve electrically operated between open and closed positions .in accordance with this invention; t Fig. 2 is a plan of the same; p

Fig. 3 is a sectional elevation ot the same on a larger scale, the section being taken approximately along the line of 3 3 of Fi'gQEZ;

and the valve being in open position; i

Fig. il is a similar elevationbut with the valve in its closed position; l Fig. 5 is a sectional plan. ot the operating mechanism of the valve, the vsection being taken approximately along the line 5-5 of m FiO. 3 but with thel u ker magnets removed D 7 b 5 Fig. 6 is a side elevation of the valve operating mechanism, with the casing in section to show the interior mechanism;

Fig. 7 is an elevation similar to Fig. 6; bu showing the side opposite from'that shown in Fig. 6;

Fig. S is a sectional elevation of the same, with the section vtaken approximatelyalong the line 8 8 of Fig. 6;

Fig. l9 is a similar elevation; but withthe valve in its closed instead of open position;

F 1g. 10 is a sectional elevation of switch mechanism forming part of the controls vof the operating mechanism;

Fig. 11 is a sectional elevation of a parti oi the armature and some of the contact mechanism; g f

Fig. l2 is a sectional elevation of a part, of the operating mechanism, andshowing details of some of the electrical connectors;

Fig. 13 is a similar, sectional elevation through another part of the valve operating mecnanism v l Fig. 14 is a plan of the armature; Y

Fig. l5 is a diagram illustrating the connections and circuit arrangements of the device; and l `vFig. 16 is a sectional elevation through a modified valve; which may be used inv substitution for the type shown in Figs. 3 and 4.

In the illustrated embodiment of the invention, the` operatingl mechanism may beV largely included in a casing 1 (Figs. l to 4),' which is secured in any suitable manner to' the casing of a valve Zot any suitableconstruction, theV valvehaving va seat 3 for engagement by a valvey element 4f. The valve seat 3 may be provided in a partition 5 eX- `tending across the interior of thevvalve casing, so that kthe passage in the partition 5 forming the valve seat controls communicationvbetween thepipes 6 and 7 vwhich 4are connected'to the yvalve casing at opposite sides of the partition 5. The valve element 4 may comprise a ball having a stem 8 extending theretrom and slidably mounted in* a passage 9 in the casing, the stem extending into the casing l. The casing l may be detachably secured to the valve casing if desired, by a flanged ring l() threadedto the valve casing and having an inturned. flange engaging and clamping a iianged portion of thecasing l, against a suitable part of the valve casing, as shown clearly in Figs. k3 and 4. l

. l 11 at one side of t-he armature or bar 16, and- The casing 1, if desired, may include an upper plate 11, and a lower plate 12, with an interposed tubular or cylindrical shell 13 there being gaskets 14 between the ends of the shell 13 and the plates 11 and 12 so as to tightly seal the joints between the shell and the plates. The valve stem 8, after extending into the casing 1, is provided with a reduced portion 15 which carries an armature or magnetic bar 16, the bar fitting against a shoulder on the stem atvthe beginning of the reduced portion 15, and being secured against movement thereon in any suitable manner, such as by a pin 17 which passes through the reduced portion 15 to confine the armature against the shoulder.

Electromagnetic coils 18 are secured endwise against the underside ot the upper plate similar coils 19 are secured to the lower plate 12, so as to extend endwise toward the upper coils 18, but on the opposite side of the armature 16, so` that the armature will be disposed between the two sets et electromagnetic coils and be movable between these sets of coils as the valve element 4 moves between open and'closed positions, as shown in'Figs. 3 and 4. The coils 18 and 19 may be secured respectively to plates lland 12 by suitable screws from the cores entering the plates, and the plates ll1 and 12 are pret- Y erably of magnetic material, so as to forma connecting flux path betweenthe adjacent core ends of the coils to which they are connected, each set of coils and its connecting plate together forming a. horse-shoe magnet, with the horse-shoe magnets disposed on opposite sides of the armature. The armature is in the magnetic lield of bot-h elect-ro-V magnets and tends to complete the `flux path between the Vfree ends of both horse-shoe magnets. I have found thatA by the use ot the4 horse-shoe magnets in this manner, a more satisfactory and greater magnetic pull on the armature 'is obtained.

A strip 20 of non-magnetic-material, such as brass, is bent generally into the form of a U, so as to provide standards or legs extending along opposite sides of one ot the electromagnetic coils 19, then along the path of movement of opposite edges of the armature 16, then across between t-he. coils 18 to form the cross part 21 of the U oi the strip, the cross part being also laterally oflset as at'22, so as toextend between the coils 18. The free arms of the strip 2() are secured to the plate 12 in any suitable manner, andthe cross part 21 receives and slidingly mounts the reduced end 15 of the valve stem. The portions of the two side arms of the strip which extend along the opposite edges of the armature 16 may be offset inwardly, that is vtoward one another somewhat, so as toform` guiding walls for the armature 16 as the latter moves with the valve stem. This -oiftf1/insee arms of the two levers overrunning one another and interconnected such as by a. pin and slot connection. For example, the lever 28 may carry a headed pin 28 which slides in a slot 29 provided in the overrunning arm of the lever 24. This pin and slot connection between the levers causes their concomitant oscillation. The free ends of the levers 23 and 24 are connected by a coil spring 30 which tends to dra-w the free ends of the levers toward one another, and thus tov bias the levers yieldingly in one direction or the other from a dead center or intermediate position.

The connection of the spring to one of the levers, such as the upper lever 24, is preferably at a point materially to one side o1 a theoretical line ,joining the pivot 26 of that lever, and the point of connection between the levers. This result may co-nveniently be obtainedby making the lever 24 a bell crank, with the free arm to which the spring is connected extending away from the armature. The arm of the lever 28 to which the spring is connected, is preferably considerably longer than the other arm of the same lever, and longer than eitherr arm of the lever 24, so that as the levers oscillate between the positions shown in Figs. 8 and `9, themovement of the lower end of the which the spring 30 is connected will be to a considerable extent in a vertical direction, that is, generally in the direction of movement ofthe armature. VThus vthe tension of the spring will be considerably modified or varied by the changes in positions of the levers from those shown in Fig. 8 to those -in Fig. 9.

)ne of the levers, such as23, is provided in a side edge, at a point transversely of the lever at approximately the pivot 25, with an undercut notch lrwhichV rockably embraces an edge portion of the armature 16, so that as the armature and valve stem move back and forth between open and closed positions,`the levers 23 and 24 will oscillate between the positions shown in Figs. 8 and 9. By reason of the undercut notch the rocking of the armature in the notch may occur without any material lost mo-tion or play between vthe armature andthe lever 23, and without binding of the armature in the notch. It will be noted, in Fig. 9, that the -spring is considerably to the left of both of Y the pivots 25 and 26 of the interconnected levers 23 and 24, and therefore the turning force of the spring upon the levers would be considerable were it not for the fact that the end of the lever 24 to which the spring isconnected has moved in the direction of movement of the armature, that is, toward the lever 23, for a considerable extent, so that the spring 30 is greatly relaxed in tension.

As the armature starts its upward inovement, the tension of the spring 30 will increase rapidly, because of the bell crank formation of the lever 24, and the will cross the axis of the pivot 25 lever 23 before it reaches the axis l pivot pin 26 of the lever24. In fact, as lwill be seen from Fig. 8, the spring never passes tli-e axis of the pin 26,-but closely approaches it as the armature reaches its upper `limit of movement. lVith this arrangement, the

of the .spring is at approximately its maximum Vtension asit passes the pivot 25, but since it is still pulling in the saine .direction upon the levei` 24 and in the opposite direction upon the ,lever 23 ,as soon as ity passes the axis of the pin 25, the spring 30 will tend to rotate the two levers in opposed directions.

Since the arm ofllever 23 to which vthe spring 30 is connected is considerably longer than the corresponding arm of the lever 24 to which the spring 1s connected,

f the net result is that there will be greater therefore the force necessary to turn the levers to carry them from the position shown in Fig. 9 will bey very small, because the movementsL of the endsof the spring will.

be largely lateral, and very little increase in tension will be given to the spring .in carryingit past the dead center position.

` `As soon as the spring passes the dead centei' position, however, the spring 30 will act upon both levers to rotate them in unopposed directions, that is, in directions in which both may move freely in View of their interconnection to one another, and as this movement increases, `the tension ofthe springwill be greatly relaxed, as hereinbefore explained. that the spring is relaxed to the greatest extent when the valve is in closed position at which time the fluid pressure on the valve element tends to hold it seated;

There is a considerable load in` starting thev valve element to-open position, in overcoming theifluid pressure on the valve, and

spring of the It will be further noted therefore it is advantageous to Vhave the spring relaxed m tension as much as possible when the armature starts its opening move. The magnetic pull is always less atl v. sure will be more nearly equalized on both sides of the valve element, and the magnetic operating means can then more readily move the armature against a stronger spr-ing. wWith this arrangement, the resistance offered by the spring to the starting opening movei'nent will be va minimum, and will only increase as the magnetic pull increases by the approach of the armature to the electromagnet. A y

Y A common stem or rod 32 is mounted in the casing l, such as by tlireadingit into the lower plate l2 within the shell 13, as shown in Fig. 10, and this rod or stem is preferably threaded throughout its length. 'Uponthis rod or stein and ladjacent its endsv I provide a plurality of nuts 33.` Between rpairs of these nuts, suitable spring contact blades 34 are clamped, suitable insulating washers and bushings 35 being disposed on both sides of each contact blade and through the aperture in thes'ame, so as to completely insulate the contact blade from the rod or stem 32. A. terminal connector plate 36 is also clamped on the rod or stem against each contact blade and insulated from the stem or rod 32by the insulating washers or bushings rlhe two contact blades will thus be insulated from and securely clamped on the common rody tend along the rod or stein in `the direction of movement of the armature, land along aside edge of the-armature, and each' blade' carries a contact button 37 at a' point to be engaged by an edge of the armature the armature approaches one of its movement. That is, the buttons such positions that the armature limits of 37 are in edge will engage with one button as it approaches one f limit of movement,` and *will vengage the other button as it approaches the other limit of movement. The contact portions of the buttons and armature edges are preferably madeV correspondingly oblique, so that good area of contact will bc obtained at each time the'aimifiture engages one of the but'- tons, as well a wiping contact. The con tact blades 34 are disposed side by side and overrun one another, so that the ybuttons V37 will engage Vwith. different edge portions of the armature, and therefore the oblique portion of each button and cooperating part of the armature edge will be oppositely oblique to t-hose of the other button and its cooperating part of the armature edge.

The movement of the spring blades into the path ot the armature may be limited in any suitable manner, such as by insulated stops 39 which are disposed in the path of the free ends of the spring blades so as to limit the movement of the blades toward the armature path, and these insulators 39 may be mounted in any suitable manner, such as by mount-ing them upon the stem or rod 82 and clamping them between nuts 40 provided for that purpose on the stem or rod 82. The insulators, however, are out of the path of travel of the armature.

Referring particularly to Fig. 15, the two upper electro-magnet coils 18 which move the armature in a valve opening direction are connected in parallel to one another,rso as to obtain a. maximum of magnetic pull upon the armature. One end oi' these parallel-connected coils 18 is connectedby a wire 41 to a terminal screw or connector 42 which passes through and is insulated from the upper plate 11, the connector screw carrying at its outer end a connector plate 43 to which a circuit wire 44 may be connected. The other end of the coils 18 is con nected to the upper spring contact blade 34,r

and the contact button 37 of this upper blade -is disposed in position for engagement by4 the armature vasrtlie latter moves away 'from the coils 18 and under the attraction of the coils 19.

The coils 19 are connected in series to one another, one end ot these series connected coils being connected to thelower spring contact blade 84 whose contact button 87 is in position for engagement by the armature 16 as the latter approaches its upper limit oir' movement under the attraction of the coils 18. rl`he other end of the series connected coils is connected by wire 45 to a terminal connector screw '46, which passes through and is insulated from the upper plate 11, and this terminal screw carries a terminal plate or connector 4T 'to which is connected a circuit wire 48. lThe armatur-e is grounded through the valve stem and valve, and also through parts engaging the armature' and valve stem.

The actuating current may be supplied by circuit mains 49, the current therefrom being reduced in voltage by the transformer 50. @ne terminal of the transformerhis d1- rectly grounded to the frame 11 by wire 51, and the other terminal of the transformer is connected by wire 52 to one side ot a controlling switch 53, the other .side of the controlling switch being connected to the wire 48 leading to the connector screw 46. The wire 52 is Valso connected to one side of another switch 54, the other side of that switch being connected by the wire 44 to the terminal screw 42. By closing the switch 54, which may be called the on switch, a

circuit will be established from the trans-V former through wire 52, the switch 54, wire 44, terminal screw 42, wire 41, coils 18, the upper spring contact blade 34, the armature 1G, the ,grounded frame 11, and wire 51 back to the transformer.

Upon the completion oit such a circuit, the electromagnets 18 will be energized and will attract the armature 16 moving it from the lower position in Fig. 9, upwardly to the position shown in Fig. 8, t-hus opening the valve and shitting the levers 23 and 24 into the position shown in Fig. 8. As the armature moves upwardly for this purpose, it vwill move out of contact with the spring blade 84 with which it has been engaged, and break the circuit just described. As the armature moves upwardly, however, it will engage with the lower spring contact'blade 84, so that it now the off switch 53 is closed, a circuit will be established as iollows: from the transformer through wire 52,

switch 58, wire 48, terminal screw 4G, wire` 45, coils 19, lower spring cont-actblade 34, armature 16, grounded trame 11 and wire 51 back to. the transformer. This circuit will cause a downward pull upon the armature through the coils 19 which are now 'energized, and consequently the valve element and armature will be moved into closed position. l

In order that one'may know when the valve is in on position, a signal light 55 may be provided adjacent each switch 53, and connected in parallel across the switch, so that when the armature and the valve are in on position and the circuit through the coils 19 is established by the armature and the lower'contact blade V84, the light 55 will be in series with the coils 19, so long as the switch 53 remains open. The light 55 will therefore be visible so long as the valve element and the armature are in their ripper or open position. The resistance of the light 55 and ot the coils 19 which are in series with one another is suiiiciently high to keep the current consumption to a minimum and prevent the building up of magnetic pull suihcient to attract thearmature 16. However, as soon asvthe switch 58 is closed, it will shunt the light 55 and thereby cut out the resistance in the circuit which was offered by the light 55. l/Vith this decrease in resistance in the circuit, and the voltage of course remaining the same, the current flow will be greatly increased, and this increased current flow is sufficient to set up a magnetic iield oit a strength that will attract the armature 16 and move the valve element into closed position. As many on and ed switches and signal lights may be provided as desired, and corresponding switches will all be connected in parallel but arranged in dwelling.

different rooms or in dierent parts of a Such additional switches and lights are shown in dash lines in Fig. 15.

` It is'possible that one having operated one of the switches 54 to cause the operation oi' the valve element to on position may 'forget the mattei' and not be in a. position to observe the light 55 which would then'be burning. To prevent the operation of a burner (not shown) controlled by the valve beyond a time-which would be sufficient toy heat a desired quantity ofv water, a suitable thcrmostatic arrangement may also advantageously and preferably is used as a part of this system. For example, any suitable tliermostatically operated switch devicel 56 may be mounted adjacent to or `at any point along a hot water storage tank or reservoir 57, and connected bycii'cuit wires 5S and 59 to the circuit wires 52 and 43 respectively. This places the thermostatic switch 56 electrically in parallelwith the light 55 and the switch 53. f i

Wlien the burner has operated fora period of time suiiicient to heat the water in the tank 57 down to the thermostatio switch 56, thelattei"beingthen heated will close the circuit between the wires 58 and 59 and thus will shunt the light 55 the same as would be done bythe switch r53. `This causes a sulficicnt en'eigization of the magnets 15 to cause the operation of the valve element to off position, thus shutting oiftlie burner automatically when the desired quantity oi water has been heated, even though the person who started the burner goinghad for-y gotten that fact or did not see the signal light. `However, anyone may shut ott lthe burner, by operating the switch 53, at any time before the entire quantity ofwater has been heated. Inasmuch as the quantity ogt water desired to be heated'beiore the burner is automatically cut oif may vary at different times, the thermostatie switch device 56 may be mounted on a band 60 which sur.- rounds the tank and is adjustable upwardly and downwardly on the tank into anyv desired position, the particular position selected determining theainount of water to be heated before theI burner will bel automatically cut oft' by fthe.y closing of the valve. It may be desirable to keep the water hot after the burner has been cut oit by the closing of the valve either manually or' automatically, and in such a case aserew 61 may be threaded through the casing of the valve 2 in a position to obstruct the complet-e closing of the valve element 4, as shown clearly in Fig. 4. The screw prevents complete movement of thewvalve element into closedv position and by threading it into the casing of the valve to different extents, thevalve element may be held in a more or rless. slightlyopen position, so as topermit the iiowoi -a smally quantity o1 gas tothe burner and `and this auxiliary passage 62y may,` be rc-v sti'icted more or less by the conical tip of a screw-G3 which is also threaded through the casing of the valve 2% Thus by threading the screw 63 further into` the casing, the flow through the auxiliary passager62 may be cut down, so `that theextentto which the burner vmay be supplied with gas mayl be varied in the same manner as the minimum flow is'regulated by the screw 61 in Figs. 3 and 4. Y

The connector screws 42y and 46 which ypass through the'plate 11 are insulated fromthe plate 11 in any suitable manner, suoli as by insulated washers 64 and flanged bush-v f ings 65, Figs. 12 and 13. In order to prevent turning of the screws 42 and 46, such as might be caused by the tightening or loosening of the rnutsf66 thereon and through which the connector plates 43 lare' clampedl thereto, the portion of each connector screw 42 and 46 which passes through the plate 11 and the bushings may be ymadeiion-cii- 4cular in form, such as byfmaking it of square cross section, andthe bushings 65 is made cause their breakage will beprcvented. The

wire 41 is connected to both coils 18, and this double connection may-'becasily estab.- lished by passing the wire 41 throughan aperture or passagejin lthe head ofthe termi-y nal -serew 42, as-shown vinFig.-'12, and sol.- dering `the wire therein to establish'a good Contact;

l 'The operation ofthis system will fbe-lreadily understood from -the foregoing, but will` bestated briely.- vThe circuit through each horse-shoe electromagnet will be established at thevalve as the armature-approaches its` retracted position with respect to that elecl tromagnet, and as moved by theopposite electromagnet. By selectively operatingV the switches 53 and 54, the valve element` may be operated from a remote point tov either open or closed vposition`,and when the .valve element moves into open position so as. to

start theybuinei of Ythe water heater-,a cirew cuit will be established through the coils-19 and 'all lthe signal lights 55, which' signal lights will bc-infparallel to oneanothcr 'als though collectively Qin 'series vwith the coilsf19,

vvand these signal lights will indicate that'the iso f burner is going. If, however', one should forget that the burner is going, or not see any of the signal lights burning, the thermostatic switch device 56 will automatically cause the closing ofthe valve element and the shutting down of the burner when a predetermined quantity of water has been heated. The minimum flow of gas controlled bythe valve while the Valve isin closed position, may be varied by adjusting the screw 61 or the screw 63," depending upon the type of valve employed. It will also be observed that the armature makes a wiping contact with the contact buttons 37 of the spring blades 34, and therefore a dependable and clean contact surface will always be provided within the casing l, where access is not convenient. The casing 1 being a closed casing, it is not necessary to have a tight fit between the stem 8 of the valve element and the passage 9, and therefore there will be a minimum of resistance to movementof the valve element between itspositions.

It will be obvious that'various changes in the details, which have been herein described and illustrated in .order to explain the nature of the invention, may be made by those skilled in the art within. the principle and scope of the invention as expressed in the appended claims.

I claim asmy invention s l; In an electric operating system for valves, a valve, a bar armature connected to saidV valve, a pair of horse-shoe electromagnets disposed on opposite sides of said armature, with the armature extending between the' free .ends of the electroinagnets and always moving in the magnetic field of both electromagnets, whereby said armature and valve will `be operated in one direction or the other depending ,upon` which electromag net is energized, a circuit for .each electromagnet, a pair of switches in series in each circuit, one Aof the switches in each pair being closediby the movement of the armature a-way from 'the related magnet in whose circuit that switch is connected, the otherof such switches of each circuit when closed causing an operation of the valve.:

' 2. In an elect-ric operating system'for valves, a valve having a movable element,

Y an armature carried Aby said element, eleetromagnets for operating said armature in either direction, a separate circuit for each electroinagnet including the armature as a part of both circuits, a pair of spring contacts, one connect-ed in series to each of said velectromagnets and each engageable with the armature to complete the circuit through its electromagnet, the points of engagement of the armature with the spring contacts being approximately at the ends of movements of the armature away frem the magnet whosecircuit is completedby a spring contact, V.and an additionalswitch in .eachcircuit for controlling the initiation of the action of the electromagnets.

3. In an electric .operating system for valves, a valvey having a moving element whose position determines whether the valve is opened or closed, a bar armature connected to said valve element toloperate it between open and closed positions, a pair `of spring contact blades disposed adjacent the armature, each blade and armature having surface portions enga-geable with one another during the movemcntfof saidu armature between open and closed positions, said engageable surface portions being oblique to the direction of travel of the armature, said surface portions of said armature being oppositely oblique to ,the direction of t 1avel of the armature, whereby7 as the armature bar moves in opposite directions, it will engage and have wiping contact with one or the other of said spring contacts at approximately the ends of its movement, a circuit for each electromagnet including said armai ture bar and that one of said blades with which .said bar engages it moves away from this elcctromagnet', whereby the circuit through any electromagnet will be opened whenever the armature approachesthat elec- Vtromagnet. n l

4. In an electrically operated system for valves, a valve element movable between open and closed position, an armature connected to said element for operatingV the same,`said armature having contact surfaces oppositely oblique to its direction of travel, spring contact blades having oblique faces corresponding respectively inobliqueness of contact surfaces with the oblique surfaces of said armature and disposed for engagement alternately by said armature contact surfaces at approximately the limits of its movements in both directions, electromagnets operating on said armature to operate it selectively in either direction, `and operating circuits for saidl electromagnets, each circuit including inV series one of said spring contacts, both including said armature. Y

5. In an electric operating system for valves, a casing having a valve seat, a valve element in said casing and having a'stem slidable in said casing to permit movement of the valve element to and from closed position on said seat, an armature bar secured on said stem so `as to extendV transversely thereof, a pair of horseshoe electromagnets arranged on opposite sides of said bar, with the bar between said electromagnets and movable toward or from said electromagnets alternately as the valve element movesbetween open and closed positions, an individual operating circuit for each electromagnet, and means engaging vthe armature' for yieldingly holding it at both'of its limits of movement between said electromagnets.

6. In an electric operating system for ice valves, a valve casing having a seat, a valve element in said casing and having a stem slidable through said casing` to and from closed position withrespect to saidseat, a second casing secured to the valve casing and into which said stein extends, a bridge member within said second casing' and slidingly supporting and guiding said stem, an armature barsecured on said stem and extendimr in opposite directions transversely of'the stem at a point withinsaid second Casing, electromagnets arranged upon opposite sides of said armature bar and between which said bar moves as the stem reciprocatcs` between open and closed positions, an individual circuit for each electromagnet, vand means for yieldingly holding said valve stem and armature in openposition.

7. In an electric operating system for valves, a valve casingghaving ka seat, a valve lelement in said casing and having av stem slidable through said casing to andffrom closed position with respect' to said. seat, a. second casing secured to the valve casing` and into which said stem extends, a bridge member within said second casing` and slidingly supporting and guiding said stem,y an armature bar secured on said stem and extending in opposite directions transversely of Y the stem at a. point within said second casing, electromagnets arranged upon opposite sides of said armature bar and between which-'said bar moves as the stem reciprocates between open and closed positions, an individual c ircuit for each electromagnet, and means tor yielding'ly holding said vvalve s tem and armature in open position, said bridge member also havingV portions extending along' the sides of the armature bar throughout the range ot movement of 'the bar, forl guiding the bar and preventing,f itfrom'v turning on said stem in a manner to leave the direct y magnetic field ot said electromagnets.`

8. In anelectric,operating-,system for valves, a Yvalve element movable' between Vtween open andy closed'positions, an arma'- ture bar connected to saidv stem, electromagnetic means acting;- on. saidarmature bar to operaie it in opposite directions and through it operat lsaid .valve eleinent,a pairot levers pivotally mounted adjacent the armature bar and havin g a pin and slot connection to one another, whereby they will oscillate vconcomitantly, a. spring` connected between Vthe free ends of said levers on opposite sides of the pivots of the levers,v so 'as to yieldingly urge the levers toA one side or the other of a dead center position, one of said levers having an undercut r.notch in a side edge rockably embracing' said armature bar and stem vwhereby the operation of said 'armature bar andl stem betweenopen and closed positions will cause movement-of said levers past dead centerv position at an intermediate point during,` the travel of said armature bar in either direction,whereby said spring;` will yieldiiigly hold said armature bar and stem at both limits oi' movement.

9. In an electric operatingy system `for valves, a valve clement movable between open and closed positions and having a stein I movable ondivise as saidelenient nioves'between open and closed positions, an armature bar carried on said stein, electromag-A notie means acting on said armature bar to deadcenteid position, one of said levers.`

having,` a connection to said armature bar and stem whereby the operation of said armature bar and stem between open and closed position will cause movement ci said levers past dead center position at an intermediate noncentral point..dui-ingY the travel .oi said armature bar in either direction, whereby said spring` Vwill,yieldiny'ly holdsaid arma-V ture bar andstem lat both limits of ymovement, the arrangement ot said spring between said levers with respect to the pivots ot those levrrs being` such that the spring,` actions are non-symmetrical whereby when the armature'bar moves into open position' the levers will pass dea-d center position while nearer the open position than the closed position, n y

10. In an electric. operating system for valves, a valve element mounted for reciprocation between open and closodpositions, an

armature carried byf-said valve element] electromagnetic means operating` `on said armature to move it and said clement-1in opposite directions,betweensaid positions se- ;.lectively, a pair of levers pivotally mounted adjacent said armature and having afpin and slot connection to one' another, whereby said levers will oscillate concoiiiitantly, one of said levers having a cam connection to said armature', whereby said levers willv oscillateconcomitantly with the movements ofv saidarmatureand element, a springl connecting said levers in a manner vto cause movement of said leve'rsto one side or the other of a deadcenter position, whereby said levers and armatures will be yieldingly biased 1 for movement toward both limits ot movenient, the pivots ot said levers andv 'the spring;A connection between said levers l icing so arranged relatively to one another that Vthe dead 'center line .isi passed :at a. point nearer the limit oi movement ot the valveV element toward open position than toward ico direction between open and closed positions depending which electromagnet is effective upon said armature, the coils of that electromagnet tending to move said armature and valve element toward 4open position being connected in parallel to one another, the coils of the electromagnet tending 'to move the armature into closed position being connected in series to one another, an electric circuit lor each electromagnet includinga main controlling switch for each circuit, a signal lamp connected in parallel across the switch controlling the electromagnet which closes the valve, so as to be in `series with the coils oiu that eleetromagnet when the switch oi' that circuit -is in open position, a

' resilient device connected to said armature AVeo and valve clement for yieldingly biasing said valve element in both directions from an intermediate position, the bias being greater toward the closed than towards the open position, and a switch in the circuit oi each electromagnet closed by the movement of the armature away from that electromagnet.

l2. In an elect-ric operating system for valves, a valve casing, a valveelement in said casing'having a valve stem mounted for reciprocation in said casing, an armature carried by said stem,,electromagnets disposed on opposite sides of said armature 'and Yoperating it between openfand closed positions depending upon which electromagnet is energized, a pair of levers p1votally mounted adjacent the armature and having` arms extending toward one another and vioverrunning, said overrunning arms having a pin and slot connection with one another', whereby they are oscillated concomitantly, one ofi' said levers having a connection to said armature, whereby said armature and lever will move concomitantly, a spring connected between the free ends of said levers so as to bias said levers in either direct-ion from an intermediate dead center position, the point Yof connection of said spring to one of said levers being materlally at'one side of a theoretical line joining the pivot oit that lever with the point of connection between said levers, whereby said spring crosses the pivotal axis of one lever before it will the other' during movement of the armature in one direction.

13. In an electric operating system for valves, a valve stem, an armature carried by said valve stem and extending laterally therefrom, electromagnets disposed on opposite sides of said armature and operating said armature and valve stem in either direction between open and closed positions depending upon which electromagnet is energized, an individual circuit for eacheleetromagnet, a spring blade included in the circuit of each electromagnet and having a contact portion engageable by the armature as the armature moves away from the electromagnet in whose circuit the blade is included, a rod, said spring blades being mounted upon said rod for individual adjustment in the direct-ion of travel of the armature, whereby the instant of contact of the armature and spring blades may be varied by adjustment of the blades.

14. In an electric `operating system for valves, a valve element having a valve stemV by whichgit may be operated between open and closed positions, an armature carried by said stem, electromagnets disposed on opposite sides of said armature for magnetically moving said larmature and valve stem alternately between open and closed positions, depending upon which electromagnet is energized, a rod adjacent to said armature and extending in the direction of movement otsaid armature, a pair of spring blades mounted on said rod for adjustment along the same and extending in close proximity to an edge ol the armature jor engagement therewith as the armature approaches the limits of movements in both directions, the armature engaging one of said blades when approaching one of its limit positions and engaging with thel other when approach-` ing the other limit position, means also mounted on said rod `for limiting the movement of said blades toward the armature, whereby said spring blades willnot contact with said armature until the armature approaches its limits of movements, individual circuits for said electromagnets, the circuit ofieach electromagnet including in series therein the spring blade engaged by thearmature as it moves away from that electro, magnet, and means `for yieldingly biasing the armature and stem toward `either limit of Vmovement from an intermediate position.

l5. In an electric operating system for valves, afvalve casing, a valve element in said casing having a valve stem mounted for reciprocation in said casing, an armature carried by said stem, electromagnets disposed on opposite sides oi said armature and operating it between open and closed positions `depending upon which electromagn'et is energized,l a pair of levers pivotally mounted adjacent the armature and having 'arms extendingftoward one another and overrunning, said overrunning arms having a pin and slot connection with one another, whereby they are oscillated concomitantly, one` of said levers having an undercut notch in its edge at a point trans-y versely of that lever near its pivot, said armature being rockably received in said notch, whereby said notched lever and armature will always move concomitantly, during which the armature rocks and slides in said notch, and a spring connected between the free ends of said levers to bias said levers in either direction from an intermediate dead center position.

16. In an' electric operating system` for valves, a valve element movable between open and closed positions, a bar armature connected to said element for movement therewith, electromagnets acting upon said armature to operate it and said element between open and closedv positions, the direction depending upon which electromagnet is energized, a pair of levers pivotally mounted adjacent the armature and extending generally in the direction of movement of the armature, said levers having adjacent arms interconnected for concomitant oscillation, one of said levers having in its edge,

transversely thereof opposite its pivot, an

undercut notch rockably Vembracing said armature, whereby the levers will be oscillated when the armature moves, and a spring connected between the free arms of said levers, one of the arms to which the spring is connected being materially longer from the spring connection to its pivot than the spring connection to the other lever is from the pivot of that other lever, the point of connection of said spring to the short arm being materially at one side of a theoretical line joining thepivot of that lever with the point of connection between said levers,

whereby the spring crosses the pivotal axis of one lever before it will that of the other lever, yduring movement of the armature in one direction.

17. An electrically operated valve coniprising a valve element mounted for movement between open andclosed positions, an armature connected vto said element for movement therewith in both directions, a pivoted lever having in its edge adj acentits pivot a notch rockably engaging a portion of the armature, and a spring device acting on said lever to bias it in'either direction from an intermediate position, whereby said lever and armature will be yieldingly held in either open or closed position.

18. In an electrically operated valve, a valve casing, any auxiliary casing connected to said valve casing, a valve element'in said valve casing having an operating stem extending into said auxiliary casing and movable between openl and closed positions, an4 armature in said auxiliary casing, an" elec- Y tromagnet disposed adjacent said armature and operable thereon to move the same and said valve element into open position, a second electromagnet disposed adjacent said armature and operable thereon to move the armature and valve element into closed position, a stud extending Vinto said auxiliary casing, a lever pivoted on said stud with the pivotal axis in approximately the plane of the armature when the armature is at an intermediate point in its kmovement between said electromagnets, said lever havving in the edge adjacent said armature a notch rockably embracing a portion of they armature connected `to said element for movement therewith in both directions a pivoted lever having in its edge adjacent its pivot a notch roclrably engaging a portion of the armature, and a spring actuated cam device acting on said lever to bias 1t in either direction from an intermediate position, whereby saidlever and armature will be yieldingly held in either open or closed', i

position.

ico

20. In an electric operating system for valves, a valve element mounted for reciprocation betweenopen and closed positions, an armature carried by said valve element, electromagnetic means operating on said armature to move it and said element in opposite directions between said positions selectively,

a pair of levers of the first class pivotallymounted adj acentsaid armature and having a ypin and slot connection to one another, whereby said levers will oscillate concomitantly, one of said levers having acam connection to said armature adjacent its pivot, said `cam connection being independent of the other lever, whereby said levers will oscillate concomitantly with the movements of said armature and element, lsaid one of the levei's having its free arm longer than its connected arm, a spring connecting the free end of the other of said levers andthe free end ot' the longer arm of said one of the levers to cause movement of said levers to one Vside or the other of a dead center position, whereby said levers and armatures Vwill be yieldingly biased for movement towardboth limits of movement. 

